System and Methods of Communicating Events Between Multiple Applications

ABSTRACT

A system and methods of communicating events includes detecting, on a code space of an application, an event at the application; transmitting the detected event from the application to an embedded application, the embedded application being embedded in the application; and triggering the detected event on an event aggregator of the embedded application based upon data associated with the detected event.

CROSS REFERENCE TO RELATED APPLICATIONS

Pursuant to 35 USC §120, this application is a continuation applicationand claims the benefit of the earlier filing date of U.S. patentapplication Ser. No. 14/526,173, filed on Oct. 28, 2014, entitled“System and Methods of Communicating Events Between MultipleApplications, the contents of which is hereby incorporated by referenceherein in its entirety. This patent application is also related to U.S.patent application Ser. No. 14/526,191, entitled “System and Methods ofBroadcasting Events Between Multiple Applications, filed on Oct. 28,2014, and assigned to the assignee of the present application.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

None.

REFERENCE TO SEQUENTIAL LISTING, ETC.

None.

BACKGROUND

1. Technical Field

The present disclosure relates to communicating events betweenapplications, and more particularly, to communicating events between ahost application and one or more embedded applications therein.

2. Description of the Related Art

Event-driven applications wait for a user's actions or changes in asystem (collectively known as “events”) prior to performing anoperation. Typically, events are raised or triggered by code running inan application while event listeners or subscribers listen for theseevents and may execute operations in response to the events detected.

An event aggregator, such as an event sink, contains the logic formanaging event subscriptions and event publications. Event aggregatorsmay be utilized for routing events from event sources, such as eventpublishers, to its subscribers. Managing event subscriptions may includemonitoring, tracking, adding and/or removing subscribers.

Event sources or publishers raise or trigger an event to occur in anapplication. For example, an event source may be code that triggers anevent by executing code on or belonging to an event source data object.The data object may be, for example, an element in a graphical userinterface of the application such as a button, a textbox, or a link. Theevent source may notify the subscribers of the application of thetriggered events, and a subscriber to may perform a specific operationor a program function in response to the raised event. For example, thepublisher may notify subscribers of an application of changes entered ina document, and a subscriber may use the notification raised by theevent source to trigger another event, such as saving the changes to amemory of the computing system, updating a database entry with thechanges raised, or other like events.

Existing event-driven applications may be written in more than oneprogramming language and may have different technologies that lietherein. Thus, it is sometimes challenging to embed one application intoanother application. For example, when an application written for theweb is integrated into a desktop application, the web application maynot be able to communicate well with the desktop application from whichit is hosted since web applications are typically written in a differentprogramming language and/or utilize a different technology to those ofdesktop applications. Sometimes an event that occurs may need to beacted upon by both the host application and the embedded application,regardless of the code space from which the event has been triggered.Code space, as used herein, includes a set of computer instructionsresident in memory that is managed by an application. Regardless ofwhether the host and embedded applications share the same technology orlanguage, there may be issues, inefficiencies and/or difficulties incommunicating the event between both applications. In current systems,an application may also have at least one application embedded therein,thereby increasing the possibility of miscommunication.

Accordingly, there is a need for a system and methods of communicatingan event between a host application and its embedded application(s).There is also a need for a method for more efficiently triggering anevent from the host application to the embedded application(s) andvice-versa.

SUMMARY

A system and methods for communicating events between applicationswritten in different languages and/or utilizing differing technologiesare disclosed.

In one example embodiment, a method of communicating events betweenapplications is disclosed. The method includes detecting, on a codespace of an application, an event at the application; transmitting thedetected event from the application to an embedded application, theembedded application being embedded in the application; and triggeringthe detected event on an event aggregator of the embedded applicationbased upon data associated with the detected event.

In a second example embodiment, a method of communicating eventsincludes receiving at an embedded application embedded in an applicationan event detected at the application and triggering the detected eventon an event aggregator of the embedded application based upon dataassociated with the event.

In some example aspects, the data associated with the detected event isan identifier of the event.

Other embodiments, objects, features and advantages of the disclosurewill become apparent to those skilled in the art from the detaileddescription, the accompanying drawings and the appended claims.

BRIEF DESCRIPTION OF THE DRAWINGS

The above-mentioned and other features and advantages of the presentdisclosure, and the manner of attaining them, will become more apparentand will be better understood by reference to the following descriptionof example embodiments taken in conjunction with the accompanyingdrawings. Like reference numerals are used to indicate the same elementthroughout the specification.

FIG. 1 shows a block diagram of one example embodiment of a system forcommunicating events between a host application and one or more embeddedapplications.

FIG. 2 shows one example flowchart of a method of communicating an eventtriggered from the host application to the embedded applications in theexample system of FIG. 1.

FIG. 3 shows one example flowchart of a method of communicating an eventtriggered from an embedded application to the host application andanother embedded application in the example system of FIG. 1.

DETAILED DESCRIPTION OF THE DRAWINGS

The following description and drawings illustrate example embodimentssufficiently to enable those skilled in the art to practice the presentdisclosure. It is to be understood that the disclosure is not limited tothe details of construction and the arrangement of components set forthin the following description or illustrated in the drawings. Thedisclosure is capable of other embodiments and of being practiced or ofbeing carried out in to various ways. For example, other embodiments mayincorporate structural, chronological, electrical, process, and otherchanges. Examples merely typify possible variations. Individualcomponents and functions are optional unless explicitly required, andthe sequence of operations may vary. Portions and features of someexample embodiments may be included in or substituted for those ofothers. The scope of the disclosure encompasses the appended claims andall available equivalents. The following description is, therefore, notto be taken in a limited sense, and the scope of the present disclosureis defined by the appended claims.

Also, it is to be understood that the phraseology and terminology usedherein is for the purpose of description and should not be regarded aslimiting. The use herein of “including,” “comprising,” or “having” andvariations thereof is meant to encompass the items listed thereafter andequivalents thereof as well as additional items. Unless limitedotherwise, the terms “connected,” “coupled,” and “mounted,” andvariations thereof herein are used broadly and encompass direct andindirect connections, couplings, and mountings. In addition, the terms“connected” and “coupled” and variations thereof are not restricted tophysical or mechanical connections or couplings. Further, the terms “a”and “an” herein do not denote a limitation of quantity, but ratherdenote the presence of at least one of the referenced item.

It will be further understood that each block of the diagrams, andcombinations of blocks in the diagrams, respectively, may be implementedby computer program instructions. These computer program instructionsmay be loaded onto a general purpose computer, special purpose computer,or other programmable data processing apparatus to produce a machine,such that the instructions which execute on the computer or otherprogrammable data processing apparatus may create means for implementingthe functionality of each block of the diagrams or combinations ofblocks in the diagrams discussed in detail in the descriptions below.

These computer program instructions may also be stored in anon-transitory computer-readable memory that may direct a computer orother programmable data processing apparatus to function in a particularmanner, such that the instructions stored in the computer-readablememory produce an article of manufacture including an instruction meansthat implements the function specified in the block or blocks. Thecomputer program instructions may also be loaded onto a computer orother programmable data processing to apparatus to cause a series ofoperational steps to be performed on the computer or other programmableapparatus to produce a computer-implemented process such that theinstructions that execute on the computer or other programmableapparatus implement the function specified in the block or blocks.

Accordingly, the blocks of the diagrams support combinations of meansfor performing the specified functions, combinations of steps forperforming the specified functions and program instruction means forperforming the specified functions. It will also be understood that eachblock of the diagrams, and combinations of blocks in the diagrams, canbe implemented by special-purpose hardware-based computer systems thatperform the specified functions or steps or combinations ofspecial-purpose hardware and computer instructions.

Disclosed are a system and methods of communicating events between ahost application and one or more applications embedded therein. A hostapplication is any application that is running on a device. An embeddedapplication is any application separate from the host application thatcommunicates with the host application and may run within the sameprocess of the host application. The embedded application may be writtenin the same or a different coding language as the host application. Insome example embodiments, the embedded application may also be a secondinstance of the host application.

Each of the host application and the one or more embedded applicationsmay include an event aggregator for handling the events. The events maybe triggered from either the host application or an embeddedapplication. Operations may be performed in response to the events.Examples of an operation may include, but are not limited to, displayingdata from the event to a user, updating a user interface, communicatingwith a server, prompting a user for information, reading a file, closinga file, logging to a file or indicating an error (e.g., providing anerror message).

For purposes of the present disclosure, an event may be one or moreactivities in an application. An event may be, for example, auser-generated action, such as the clicking of a button, entering ofcharacters, selection on a form, opening a document, clicking of a link,and the like. An event may also be an occurrence on the applicationand/or on the system on which the application is executing, such as, forexample, a decrease in memory, a change in a state of the databases, adelay in an operating system process, or an error in a request ornetwork communication. An event may be triggered by another event. Inone aspect, the event may be a change in state of data or properties ofthe application. For example, the event may be a user action, an errornotification, a completion of a long running action, a response receivedfrom a server or database, a file closed, or an operating systemnotification received, among others.

FIG. 1 shows a block diagram of one example embodiment of a system 100for communicating events between a host application 105 and one or moreembedded applications, illustrated as embedded applications 110A and110B. Host application 105, embedded application 110A, and embeddedapplication 110B may each include an event aggregator 115A, 115B, and115C, respectively. Host application 105, embedded application 110A, andembedded application 110B may each include at least one subscriber 120A,120B, and 120C, respectively. In some example embodiments, at least oneof host application 105, embedded application 110A, and embeddedapplication 110B do not contain any subscribers.

Host application 105 may be any application executed on a particularcomputing platform in a computing device. The computing device may be,for example, a personal computer, a laptop computer, a workstationcomputer. In some example aspects, the computing device may be ahandheld or pocket-sized mobile or portable device such as, for example,a mobile telephone, a smart phone, a personal digital assistant, atablet computer, an e-book reader, or other similar device.

In some example aspects, host application 105 may be an applicationexecuted on an operating system of the computing device. In otherexample aspects, host application 105 may be an application executed ona browser accessed through the computing device, such as a webapplication. In yet other example aspects, host application 105 may bean application executed on an imaging device. The imaging device may be,for example, a multi-function product that performs multiple functions,such as printing, e-mailing, scanning, copying, and/or faxing. Theimaging device may include an operating panel for accessing hostapplication 105.

Host application 105 may be written in any programming languageappropriate for the computing platform on which it may be executed. Forexample, host application 105 may be designed to run in a MicrosoftWindows®, an Apple OSX, or an Android™ operating system environment. Insome example aspects, host application 105 may be designed to run in abrowser, such as in an HTML web page and the like.

Embedded applications 110A, 110B may be applications embedded in and/orto hosted by host application 105. Embedded applications 110A, 110B maybe included as one or more modules on host application 105. In oneexample aspect, embedded applications 110A, 110B may be written in aprogramming language different to that of host application 105 and/orwritten for a different computing platform, and embedded application110A may also be written in a programming language different from theprogramming language of embedded application 110B. In other exampleaspects, host application 105 and/or embedded applications 110A, 110Bmay be written in the same language and/or for a different platform. Inyet the same or other example aspects, host application 105 and/orembedded applications 110A, 110B may not share any code or variableswithin the computing system or device within which they are executing.

Embedded application 110A may not be able to directly communicate orshare data with embedded application 110B. However, host application 105may communicate with both embedded applications 110A, 110B, as istypical in host systems.

In some example aspects, embedded applications 110A, 110B may beactivated and/or launched once host application 105 is executing on thecomputing device. In other example aspects, embedded applications 110A,110B may be activated and/or launched prior to executing hostapplication 105. Embedded applications 110A, 110B may be connected to anetwork such as the web and be an embedded web application. For example,embedded applications 110A, 110B may be Adobe® Flash® applications,Java™ applets, Silverlight® applications, HTML inline frames (iframes),embedded web browsers or the like.

Event aggregators 115A, 115B, and 115C may be one or more programinstructions for managing events raised in the application in which itis integrated. Each of event aggregators 115A, 115B, and 115C may bewritten in the same or a different programming language as theapplication in which it is integrated. As is typical with eventaggregators, event aggregators 115A, 115B, and 115C may becommunicatively coupled with one or more event sources (not shown) andone or more of its subscribers.

For example, event aggregator 115A may be communicatively coupled tosubscribers 120A-125A; event aggregator 115B may be communicatively withsubscribers 120B-125B; and event aggregator 115C may be communicativelywith subscribers 120B-125C.

Each of event aggregators 115A, 115B, and 115C may include one or moreprogram instructions for notifying its subscribers 120A-125A, 120B-125B,and 120C-125C, to respectively, of the events raised by the eventsource(s). Event aggregators 115A, 115B, and 115C may further includeprogram instructions for triggering an event on host application 105,embedded application 110A, and/or embedded application 110B,respectively.

Subscribers 120A-125A, 120B-125B, and 120C-125C may each include one ormore program instructions communicatively coupled with event aggregators115A, 115B, and 115C, respectively, for detecting one or more events.

In some example embodiments, subscribers 120A-125B, 120B-125B, 120C-125Cmay specify which event or events it wants to subscribe to or receivefrom its respective event aggregator 115A, 115B, 115C. Specifying anevent to receive from event aggregators 115A, 115B, 115C may includespecifying or otherwise indicating an identifier or a property of anevent that the subscriber wishes to receive. By way of example, but notlimitation, if host application 105 were an electronic content system,subscriber 120A may specify to event aggregator 115A that subscriber120A wants to receive an event or notification when a file is modified,and subscriber 125C may specify that it wants to receive an event ornotification when a new file is created. In such an example, subscriber120A specifies that it wishes to receive from event aggregator 115Aevents labeled or having an identifier “EditEvent”, and subscriber 125Aspecifies that it desires to receive events labeled “CreateEvent”.

Subscribers 120A, 120B, and 120C may also include one or more programinstructions for processing and/or responding to the raised events. Forexample, subscriber 120A may include instructions for an operation, suchas a program function, which may be executed in response to an event onhost application 105. In one example aspect, subscriber 120A may includea program function for closing a web page accessed by a user once anevent indicating that the user clicked or depressed a “Sign Out” buttonhas been raised on host application 105. In another example aspect,subscriber 120A may include a program function for displaying an imageonce an upload event has been triggered by host application 105.

It will also be appreciated by those skilled in the art that in someother example embodiments, the application on which an event isinitially triggered may not have an event aggregator and/or not everyapplication to which an event is being communicated requires an eventaggregator. For example, in some example embodiments where an event istriggered on host application 105, event aggregator 115B or eventaggregator 115C may be omitted, and in other example embodiments wherean event is triggered in embedded application to 110A or embeddedapplication B, only event aggregator 115A of host application 105 isrequired.

FIG. 2 shows one example flowchart of a method 200 for communicating anevent triggered from host application 105 to embedded applications 110A,110B. Communicating the event from host application 105 to embeddedapplications 110A, 110B informs embedded applications 110A, 110B of theevent detected or initially triggered on host application 105, allowingboth host application 105 and embedded applications 110A, 110B torespond or react to the detected event.

For illustrative purposes, host application 105 may be an applicationwritten in C# language, and embedded applications 110A, 110B may be anHTML page in an embedded web browser and an Adobe® Flash® application,respectively. Activity, such as user input, may be initially detectedfrom any of the application in C# language, the HTML page, and theAdobe® Flash® application, as is typical in event-driven applications.The application may be configured to receive an event, such asnotification of a user input, for sending to both the HTML page and theAdobe® Flash® application.

At block 205, event aggregator 115A may detect an event on a code spaceof host application 105. The code space may be, for example, an area inthe code of host application 105 which includes program functions thatare exclusive to host application 105. For instance, the code space ofhost application 105 may be a portion having the C# code and excludingthe programming languages for embedded applications 110A, 110B.

Detecting the event on host application 105 may include determining anidentifier of the event, such as a name of the event. For example, eventaggregator 115A may detect the occurrence of an event having“KeyboardEvent” as an identifier, which is triggered by a user enteringcharacters in a field, such as a name field, of host application 105. Insome example aspects, event aggregator 115A may also obtain data upondetection of the event. Data may be, for example, the alphanumericcharacters or other input entered by the user into host application 105.In some example aspects, event aggregator 115A may also temporarilystore the data obtained in a storage location, such as in a remoteserver or in a memory space associated with the computing device andowned by neither host application 105 or embedded applications 110A,110B. Such stored data may then be retrieved and/or used by embeddedapplications 110A and 110B.

At block 210, event aggregator 115A of host application 105 maybroadcast the to detected event by notifying subscribers 120A-125A onhost application 105 of the event. In some example aspects, eventaggregator 115A of host application 105 may also broadcast the dataassociated with the detected event.

In one alternative example embodiment, event aggregator 115A of hostapplication first determines which subscribers 120A-125A are registeredor configured to receive the broadcast of the detected event and thenbroadcasts the detected event and/or data associated with the detectedevent only to those subscribers 120A-125A which are registered orconfigured to receive the broadcast of the detected event. Thedetermining may be performed by event aggregator 115A identifying whichof subscribers 120A-125A, connected to event aggregator 115A, havespecified to receive the event based on at least one of an identifier ora property of the event. Upon determining which of the subscribers120A-125A have registered to receive the event, event aggregator 115Amay broadcast the event only to subscribed subscribers 120A-125A. Forexample, if the identifier is “KeyboardEvent,” event aggregator 115A maybroadcast the “KeyboardEvent” event only those subscribers 120A-125Awhich have specified to receive events having “KeyboardEvent” as theidentifier.

Subscribers 120A-125A which are registered or configured to receive thebroadcast of the detected event may then execute operations in responseto the detected event. For example, if event aggregator 115A broadcastsan event identifier “KeyboardEvent” to which subscriber 120A isregistered or configured to receive, then subscriber 120A may executeinstructions to store the received data (e.g., new characters entered bythe user) to a memory of the computing device, update a database with anentry including the new characters, or the like, in response to theevent detecting the new characters being entered.

As a result of the detected event being triggered on event aggregator115A, host application 105 may send the identifier of the detected eventto embedded applications 110A, 110B, respectively, within hostapplication 105 (block 215). Sending the identifier of the detectedevent informs every embedded application 110A, 110B of the eventinitially triggered on host application 105, allowing every embeddedapplication 110A, 110B to trigger an event on its respective eventaggregator 115B, 115C based on the received identifier. In one exampleaspect, host application 105 may also send the data obtained with thedetected event to embedded applications 110A, 110B. For example, hostapplication 105 may send the identifier “KeyboardEvent” and the inputreceived from the user to the HTML to page and to the Adobe® Flash®application.

At block 220, embedded applications 110A, 110B may receive theidentifier and/or the data obtained on host application 105 upon thedetection of the event. Once the detected event is triggered on eventaggregators 115B, 115C of embedded applications 110A, 110B,respectively, the detected event may be handled by subscribers120B-125B, 120C-125C in their respective code spaces based on thereceived identifier.

Triggering the event may include event aggregators 115B, 115Cbroadcasting the triggered event to each its subscribers 120B-125B,120C-120C, respectively. For example, event aggregators 115B and 115Ceach notifies respective subscribers 120B-125B and 120C-125C of thetriggered event. Subscribers 120B-125B and 120C-125C registered orconfigured to receive the triggered event may then execute operations inresponse to the triggered event. For example, subscriber 120B inembedded application 110A may display the data obtained from eventaggregator 115A of host application 105, such as in a text box field,upon receipt of the event “KeyboardEvent” identifier. Subscriber 120C onembedded application 110B may also display an image based on thereceived “KeyboardEvent” identifier, such as an image including a“Success” text. It will be appreciated by those skilled in the art thatother operations may be executed on embedded applications 110A, 110B inresponse to the triggered event.

In one alternative example embodiment, at least one of event aggregators115B, 115C of embedded application 110A, 110B, respectively, maydetermine which of subscribers 120B-125B, 120C-125C are configured toreceive the triggered event before broadcasting the triggered event. Forexample, event aggregator 115B may determine which subscribers 120B-125Bare registered to receive the event detected from host application 105.The determining may be performed by event aggregator 115B identifyingwhich of subscribers 120B-125B have specified to receive, based on atleast one of the identifier or a property of the detected event, thetriggered event. Upon determining which of subscribers 120B-125B haveregistered to receive the event, event aggregator 115B may broadcast theevent to subscribed subscribers 120B-125B.

It will be appreciated by those skilled in the art that the broadcastingof the detected event to subscribers 120A-125A and/or the execution ofoperations by subscribed subscribers 120A-125A in response to thedetected event may occur before, after or simultaneously with thesending of the identifier of the detected event from host application105 to embedded applications 110A, 110B.

FIG. 3 shows one example flowchart of a method 300 of communicating ortriggering an event from embedded application 110A to host application105 and embedded application 110B in example system 100 of FIG. 1.Similar to FIG. 2, communicating the event initially triggered onembedded application 110A to host application 105 informs hostapplication 105 of the event initially triggered or detected on embeddedapplication 110A, allowing host application 105 to respond or react tothe event detected. In addition, host application 105 may inform otherembedded applications existing host application 105, such as embeddedapplication 110B, of the event initially triggered or detected onembedded application 110A.

For illustrative purposes, example method 300 will continue to bedescribed using host application 105 written in C# language and exampleembedded applications 110A, 110B being an HTML page and an Adobe® Flash®application, respectively. Host application 105 may perform thefunctions for displaying one or more thumbnails of images from anapplication server. Embedded application 110A may configured to receivea user request for uploading one or more images to the same applicationserver, and embedded application 110B may be an application including aslideshow of the one or more uploaded images on the application server.

At block 305, event aggregator 115B may detect an event on the codespace of embedded application 110A. Detecting the event on embeddedapplication 110A may include determining an identifier of the event,such as a name of the event. For example, event aggregator 115B maydetect an occurrence of an event having “UploadEvent” as an identifier,which is activated or triggered by a user pressing an “Upload” button inembedded application 110A. In some example aspects, event aggregator115B may also obtain data upon detection of the event. For example,embedded aggregator 115B may also obtain an image file being attached toembedded application 110A, authentication information for theapplication server, an identifier of the image being uploaded, and/ormetadata of the uploaded image, in response to the event associated withthe “UploadEvent” identifier.

At block 310, event aggregator 115B may broadcast the detected event tosubscribers 120B-125B. For example, event aggregator 115B may notifysubscribers 120B-125B of the event raised on embedded application 110A.In some example aspects, event aggregator 115B of embedded application110A may also broadcast the data associated with the detected event.

Event aggregator 115B may determine which of subscribers 120B-125B areconfigured or registered to receive the detected event. The determiningmay be performed by event aggregator 115B identifying which ofsubscribers 120B-125B have specified or opted to receive the detectedevent based on at least one of the identifier or a property of theevent. For example, event aggregator 115B of embedded application 110Amay determine which of subscribers 120B-125B are configured to receiveevents indicating an image upload request (i.e., events having the“UploadEvent” identifier). Subscribers 120B-125B registered orconfigured to receive the broadcasted event may then execute operations,such as one or more program functions associated with or based on thedetected event, in response to the detected event.

At block 315, embedded application 110A may send the identifier of thedetected event to host application 105. Embedded application 110A mayalso send the data associated with the detected event broadcasted byevent aggregator 115B to host application 105. The identifier of thedetected event and/or data obtained upon detection may be sent to thecode space of host application 105. For example, embedded application110A may notify host application 105 that an upload event has beendetected by sending the identifier of the upload event, such as the“UploadEvent”.

At block 320, event aggregator 115A of host application 105 may triggeran event based upon the received event identifier and/or associatedevent data. Triggering the event may include raising an event on eventaggregator 115A and notifying subscribers 120A-125A of the detectedevent. Subscribers 120A-125A registered to receive the detected eventmay further execute operations in response to the received event.

The one or more operations may be, for example, establishing aconnection with the application server to which the image has beenuploaded, retrieving a copy of the image uploaded from the applicationserver, coordinating with a display method or function in the code spaceof host application 105 to display the image retrieved as a thumbnail,or the like.

At block 325, host application 105 may determine whether any otherembedded applications exist on host application 105 (in addition toembedded application 110A on which the event was initially detected tobe raised). Upon a positive determination that host application 105contains at least one other embedded application, host application 105may transmit the identifier of the event detected by event aggregator115B to each of the other to embedded applications (in this exampleembodiment, embedded application 110B) at block 330. Host application105 may also transmit the data associated with the detected event toeach of the other embedded applications (in this example embodiment,embedded application 110B).

At block 335, the event aggregator (in this example embodiment 115C) ofthe other embedded applications may then trigger an event based on thereceived identifier. For example, in example system 100, eventaggregator 115C of embedded application 110B may then trigger an eventbased on the received identifier. Triggering the event on eventaggregator 115C may include notifying subscribers 120C-125C which areregistered to receive the triggered event of the event occurrence.Subscribers 120C-125C registered or configured to receive the triggeredevent may then execute operations in response to the triggered event.

For example, upon determining that an Adobe® Flash® application(embedded application 110B) exists on host application 105 (written inC#) in addition to the HTML page (embedded application 110A), hostapplication 105 sends the “UploadEvent” identifier to the Adobe® Flash®application or notifies the Adobe® Flash® application of the imageupload event on the HTML page. Event aggregator 115C of the Adobe®Flash® application may receive the “UploadEvent” identifier and notifysubscribers 120C-125C of the triggered event. For example, if subscriber125C is registered to receive the event triggered by the “UploadEvent”identifier, the operation subscriber 125C may perform in response to thetriggered event may be requesting the uploaded image from theapplication server.

If, at block 325, host application 105 determines that it contains noother embedded applications (i.e., a negative determination), noidentifier of or data associated with the detected event is transmitted.

Example method 300 may be repeated in response to a subsequenttriggering of a separate event.

It will be appreciated be those of ordinary skill in the art that inother example embodiments, example method 300 may be utilized to detectan event from any embedded application 110A-110B and communicated tohost application 105 and, ultimately, to any other embedded applicationsexisting on host application 105.

It will be appreciated that the actions described and shown in theexample flowcharts may be carried out or performed in any suitableorder. It will also be appreciated that not all of the actions describedin FIG. 2 or FIG. 3 need to be performed in accordance with the exampleembodiments and/or additional actions may be performed in accordancewith other example embodiments of the present disclosure.

Many modifications and other example embodiments of the disclosure setforth herein will come to mind to one skilled in the art to which thisdisclosure pertains having the benefit of the teachings presented in theforegoing description and the associated drawings. Therefore, it is tobe understood that the present disclosure is not to be limited to thespecific example embodiments disclosed and that modifications and otherembodiments are intended to be included within the scope of the appendedclaims. Although specific terms are employed herein, they are used in ageneric and descriptive sense only and not for purposes of limitation.

What is claimed is:
 1. A method of communicating events, comprising:detecting, on a code space of an application, an event at theapplication; transmitting the detected event from the application to anembedded application, the embedded application being embedded in theapplication; and triggering the detected event on an event aggregator ofthe embedded application based upon data associated with the detectedevent.
 2. The method of claim 1, wherein the data associated with thedetected event is an identifier of the detected event.
 3. The method ofclaim 1, further comprising broadcasting the detected event to at leastone subscriber of the application.
 4. The method of claim 3, furthercomprising executing, by the at least one subscriber, at least oneoperation in response to the detected event.
 5. The method of claim 3,further comprising determining the at least one subscriber of theapplication registered to receive the broadcast detected event prior tothe broadcasting.
 6. The method of claim 5, wherein the determining theat least one subscriber of the application is registered is performed byan event aggregator of the application.
 7. The method of claim 1,further comprising receiving data associated with the event upon thedetecting the event.
 8. The method of claim 1, wherein the transmittingthe detected event from the application to the embedded applicationcomprises transmitting an identifier associated with the detected eventto an event aggregator of the embedded application.
 9. The method ofclaim 1, wherein the transmitting the detected event from theapplication to the embedded application comprises transmitting dataassociated with the detected event to an event aggregator of theembedded application.
 10. The method of claim 1, wherein thebroadcasting the detected event comprises sending the data to the atleast one subscriber.
 11. The method of claim 1, wherein thetransmitting the detected event comprises sending an identifier of thedetected event to the embedded application.
 12. The method of claim 1,wherein a coding language of the application differs from a codinglanguage of the embedded application.
 13. A method of communicatingevents, comprising: receiving at an embedded application embedded in anapplication an event detected at the application; and triggering thedetected event on an event aggregator of the embedded application basedupon data associated with the event.
 14. The method of claim 13, whereinthe receiving the detected event comprises receiving the data associatedwith the detected event from the application.
 15. The method of claim14, wherein the data comprises an identifier of the detected event. 16.The method of claim 13, further comprising notifying a subscriber of theembedded application of the detected event.
 17. A non-transitorycomputer-readable storage medium storing instructions that, whenexecuted by a computer, cause the computer to perform a method ofcommunicating events, the method comprising: detecting an event at ahost application written in a first programming language; transmittingthe detected event from the host application to an application embeddedin a host application, the embedded application written in a secondprogramming language; and triggering the detected event on an eventaggregator of the embedded application.
 18. The non-transitorycomputer-readable storage medium of claim 17, wherein the methodperformed further comprises broadcasting the detected event to at leastone subscriber of the host application.
 19. The non-transitorycomputer-readable storage medium of claim 18, wherein the methodperformed further comprises determining the at least one subscriber ofthe host application configured to receive the broadcast detected eventprior to the broadcasting.
 20. The non-transitory computer-readablestorage medium of claim 17, wherein the method triggering the detectedevent is triggered based upon data associated with the detected event.